Nanostructured Graphene-Titanium Dioxide Composites Synthesized by a Single-Step Aerosol Process for Photoreduction of Carbon Dioxide

Wang, Wei‐Ning; Jiang, Yi; Fortner, John D.; Biswas, Pratim

doi:10.1089/ees.2013.0473

Cited by 25 publications

(25 citation statements)

References 23 publications

(39 reference statements)

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“…However, it increased to 1.04 after CO 2 photoreduction, which showed the decrease of defect densities, indicating simultaneous photoreduction of r--GO. This observation is consistent with the trends reported in our previous work on CO 2 photoreduction of CGOTI 31 and is confirmed by our conductivity measurements in Table 2.…”

Section: Surface Chemistry Characterization For Co 2 Photoreduction Msupporting

confidence: 94%

“…The CO yield, however, decreased with further increases in the TiO 2 /GO percentage after the optimal value (20%). Based on our previous studies, 31,32 TiO 2 /GO percentages beyond 20% increased the possibility of agglomeration of TiO 2 NPs both inside and outside the r--GO nanosheets. The overall CO 2 photoreduction efficiency will be affected by both the interparticle e ----h + recombination due to the agglomeration of TiO 2 NPs inside the r--GO nanosheets, and the intraparticle e ---- h + recombination resulting from free TiO 2 NPs outside the r--GO nanosheets.…”

Section: Co 2 Adsorption and Photoreductionmentioning

confidence: 86%

“…In our recent work, 32 crumpled reduced graphene oxide (CGO)--TiO 2 (CGOTI) nanocomposites was shown to result in a multi--fold enhancement of CO 2 photoreduction performance compared to pure TiO 2 . 31 Another important aspect is the enhancement of the CO 2 adsorption on the surface, and this has not been extensively studied. Amine modification is one of the most commonly applied techniques in this regard.…”

Section: Introductionmentioning

confidence: 99%

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Crumpled reduced graphene oxide–amine–titanium dioxide nanocomposites for simultaneous carbon dioxide adsorption and photoreduction

Nie

Wang

Jiang

et al. 2016

Catal. Sci. Technol.

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Crumpled reduced graphene oxide--amine--titanium dioxide nanocomposites (CGOATI) were synthesized by an one--step aerosol technique to enable simultaneous carbon dioxide (CO2) adsorption and photoreduction. Graphene oxide (GO), chemically modified by ethylenediamine (EDA), was crumpled using an aerosol process, encapsulating TiO2 nanoparticles to form core--shell nanostructures. The three--dimensional (3D) structure largely prevented the crumpled graphene nanosheets from restacking by minimizing π--π interactions, thus enhancing the stability of the catalyst by retaining its higher surface area. A combination of a 20% mass percentage of TiO2/GO, a 15:1 mass ratio of EDA/GO in precursor solution, and a 200 °C synthesis temperature led to the highest CO yield (65 µmol/g/h, with an apparent quantum efficiency of 0.0094%), which was two--fold higher than that of crumpled reduced GO--TiO2 (CGOTI) and four--fold higher than that of TiO2 alone. The enhancement of CO2 photoreduction was attributed to higher CO2 adsorption on the amine--functionalized reduced--GO (r--GO) surface and the strong electron trapping capability of r--GO. The insertion of EDA on r--GO nanosheets, the adsorption of CO2 by amine groups, and the photoreduction of the adsorbed CO2 were confirmed by FTIR and XPS spectra analysis. The r--GO nanosheets themselves were simultaneously photoreduced during CO2 photoreduction. Raman spectroscopy and conductivity measurements showed that photoreduced r--GO had a higher electronic conductivity than thermally reduced r--GO, and led to more effective CO2 photoreduction. This study offers new insights into the design and fabrication of graphene--based photocatalysts for CO2 photoreduction.

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Section: Surface Chemistry Characterization For Co 2 Photoreduction Msupporting

confidence: 94%

Section: Co 2 Adsorption and Photoreductionmentioning

confidence: 86%

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Crumpled reduced graphene oxide–amine–titanium dioxide nanocomposites for simultaneous carbon dioxide adsorption and photoreduction

Nie

Wang

Jiang

et al. 2016

Catal. Sci. Technol.

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“…Given all these advantages mentioned above, numerous studies have been carried out to synthesize the CGO/ semiconductor composite photocatalysts (Carraro F. et al, 2015;Jiang Y. et al, 2014;Nie Y. et al, 2016;Wang W.N. et al, 2014).…”

Section: Crumpled Graphene Oxide/semiconductor Compositesmentioning

confidence: 99%

Rational Design of Efficient Semiconductor-based Photocatalysts via Microdroplets: A Review

Wang

2019

KONA

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Semiconductor-based photocatalysis is regarded as an effective approach to harness solar energy to address the critical energy and environmental issues, such as fossil fuel shortage and climate change. The overall efficiency of the semiconductor-based photocatalysts can be further improved by creating nanocomposites with the incorporation of other functional materials, including metals, graphene, and metal-organic frameworks (MOFs). This critical review highlights the recent progress on the rational design of semiconductor-based photocatalysts via microdroplets, where the synthesis can be completed in a fast and controlled manner. Particular emphasis is given to three typical semiconductor-based composites, including semiconductor heterojunctions, crumpled graphene oxide/semiconductor composites, and MOF/semiconductor composites. The rationale behind the nanocomposite design, photocatalytic performance, and fundamental mechanisms are systematically discussed.

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“…In the previous researches, Wang et al prepared TiO 2 -RGO composite via a single-step aerosol approach, and they also investigated the role of synthesis temperature and TiO 2 /GO ratio in CO 2 photoreduction [8]. Tu Cheng et al provided a photoelectrocatalytic technique for reduction of CO 2 into chemicals [15].…”

Section: Introductionmentioning

confidence: 99%

Photocatalytic Reduction of CO₂Using TiO₂-Graphene Nanocomposites

Liu

Niu

et al. 2016

Journal of Nanomaterials

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TiO2-graphene (TiO2-RGO) nanocomposites were preparedviaa simple chemical method by using graphene oxide (GO) and TiO2nanoparticles as starting materials. The morphologies and structural properties of the as-prepared composites were characterized by X-ray diffraction, Raman spectroscopy, N2adsorption-desorption measurements, and transmission electron microscopy. TiO2-RGO nanocomposites exhibited great photocatalytic activity toward reduction of CO2into CH4(2.10 μmol g−1 h−1) and CH3OH (2.20 μmol g−1 h−1), which is attributed to the synergistic effect between TiO2and graphene.

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Nanostructured Graphene-Titanium Dioxide Composites Synthesized by a Single-Step Aerosol Process for Photoreduction of Carbon Dioxide

Cited by 25 publications

References 23 publications

Crumpled reduced graphene oxide–amine–titanium dioxide nanocomposites for simultaneous carbon dioxide adsorption and photoreduction

Crumpled reduced graphene oxide–amine–titanium dioxide nanocomposites for simultaneous carbon dioxide adsorption and photoreduction

Rational Design of Efficient Semiconductor-based Photocatalysts via Microdroplets: A Review

Photocatalytic Reduction of CO₂Using TiO₂-Graphene Nanocomposites

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Nanostructured Graphene-Titanium Dioxide Composites Synthesized by a Single-Step Aerosol Process for Photoreduction of Carbon Dioxide

Cited by 25 publications

References 23 publications

Crumpled reduced graphene oxide–amine–titanium dioxide nanocomposites for simultaneous carbon dioxide adsorption and photoreduction

Crumpled reduced graphene oxide–amine–titanium dioxide nanocomposites for simultaneous carbon dioxide adsorption and photoreduction

Rational Design of Efficient Semiconductor-based Photocatalysts via Microdroplets: A Review

Photocatalytic Reduction of CO2Using TiO2-Graphene Nanocomposites

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Photocatalytic Reduction of CO₂Using TiO₂-Graphene Nanocomposites